KR102347785B1 - Antenna module - Google Patents

Abstract

An antenna module is provided in which a ground wall is formed through through-holes in two radiation patterns disposed adjacent to each other to maximize isolation characteristics between the radiation patterns. The proposed antenna module includes a first radiation pattern disposed on the upper surface of the base substrate, a second radiation pattern spaced apart from the first radiation pattern on the upper surface of the base substrate, and one side of the first radiation pattern facing the second radiation pattern and parallel It includes a plurality of first through-holes arranged so as to be parallel to each other and a plurality of second through-holes arranged in parallel with one side of the second radiation pattern facing the first radiation pattern.

Description

Antenna Module {ANTENNA MODULE}

The present invention relates to an antenna module.

In general, an antenna resonating in two frequency bands is configured to include two radiation patterns. In this case, the two radiation patterns are arranged to be spaced apart from each other by a predetermined distance or more in order to prevent mutual interference.

However, when the electronic device on which the antenna is mounted is small, since the size of the antenna is reduced, it is difficult to secure a separation between the radiation patterns. Accordingly, the conventional antenna has a problem in that the interference between the radiation patterns is generated and the isolation characteristic is deteriorated.

Korean Patent Laid-Open Patent No. 10-2010-0018371 (Title: Dual-band antenna for W LAN and low ultra-wideband)

The present invention has been proposed to solve the above-mentioned problems in the prior art, and an antenna module in which a ground wall is formed through a through hole in two radiation patterns disposed adjacent to each other to maximize the isolation characteristics between the radiation patterns. intended to provide

In order to achieve the above object, an antenna module according to an embodiment of the present invention is disposed apart from a base substrate having a ground on its lower surface, a first radiation pattern disposed on the upper surface of the base substrate, and a first radiation pattern on the upper surface of the base substrate. a second radiation pattern, a plurality of first through holes disposed parallel to one side of the first radiation pattern facing the second radiation pattern, and a plurality of first through holes disposed parallel to one side of the second radiation pattern facing the first radiation pattern and a second through hole of In this case, the area of the first radiation pattern is formed to be smaller than the area of the second radiation pattern.

In the plurality of first through-holes, a first radiation pattern is electrically connected to the ground, and in the plurality of second through-holes, a second radiation pattern is electrically connected to the ground.

The antenna module according to an embodiment of the present invention may further include a feeding pattern disposed on the upper surface of the base substrate and electrically connected to the first radiation pattern and the second radiation pattern.

The feeding pattern may include a first feeding pattern electrically connected to the first radiation pattern, a second feeding pattern electrically connected to the second radiation pattern, and a third feeding pattern electrically connected to the first feeding pattern and the second feeding pattern. have.

At this time, the base substrate includes a first base substrate having a first radiation pattern and a second radiation pattern formed on an upper surface thereof, and a second base substrate disposed on a lower surface of the first base substrate, and the feeding pattern is disposed on the second base substrate, A first connection pattern electrically connecting the first radiation pattern and the first feeding pattern, a second connection pattern disposed on the second base substrate and electrically connecting the second radiation pattern and the second feeding pattern, and the second base substrate It may further include a third connection pattern disposed to electrically connect the first feeding pattern and the second feeding pattern. Here, the base substrate may further include a third base substrate disposed on the lower surface of the second base substrate and having a ground formed on the lower surface.

Meanwhile, the feeding pattern may include a base portion, a first branching portion branched from the base portion and electrically connected to the first radiation pattern, and a second branching portion branched from the base portion and electrically connected to the second radiation pattern.

According to the present invention, the antenna module has the effect of maximizing the isolation characteristics by minimizing the interference between the radiation patterns by forming the ground wall through the through hole in the two radiation patterns disposed adjacently.

1 to 3 are views for explaining an antenna module according to an embodiment of the present invention.
4 to 6 are views for explaining various modifications of the first radiation pattern and the second radiation pattern of the antenna module according to an embodiment of the present invention.
7 to 9 are views for explaining a feeding pattern of the antenna module according to an embodiment of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings in order to explain in detail enough that a person of ordinary skill in the art can easily implement the technical idea of the present invention. . First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 to 3 , the antenna module according to the first embodiment of the present invention includes a base substrate 100 , a first radiation pattern 200 , a second radiation pattern 300 , and a plurality of first through holes ( 400 ), a plurality of second through holes 500 , and a power feeding pattern 600 .

The base substrate 100 is a plate-shaped substrate having flexibility. The base substrate 100 is formed of, for example, polyimide generally used in flexible printed circuit boards (FPCBs). As an example, the base substrate 100 is formed in a quadrangle and has a first side surface SS1 , a second side surface SS2 , a third side surface SS3 , and a fourth side surface SS4 .

A lower surface of the base substrate 100 is formed of a ground (GND). That is, the lower surface of the base substrate 100 is formed of a ground layer made of a copper (Copper) material as an example. In this case, the ground GND is formed on the entire lower surface of the base substrate 100 . Of course, the ground GND may be formed on a portion of the lower surface of the base substrate 100 , and is formed to have a region overlapping with at least the plurality of first through holes 400 and the plurality of second through holes 500 . .

The first radiation pattern 200 is formed in a rectangular shape and is disposed on the upper surface of the base substrate 100 . The first radiation pattern 200 is disposed adjacent to the third side surface SS3 on the upper surface of the base substrate 100 . The area of the first radiation pattern 200 is narrower than the area of the second radiation pattern 300 . Accordingly, the first radiation pattern 200 resonates with a signal of a higher frequency band than the second radiation pattern 300 .

The second radiation pattern 300 is formed in a rectangular shape and is disposed on the upper surface of the base substrate 100 . The second radiation pattern 300 is disposed adjacent to the fourth side surface SS4 on the upper surface of the base substrate 100 . The area of the second radiation pattern 300 is formed to be larger than the area of the first radiation pattern 200 . Accordingly, the second radiation pattern 300 resonates with a signal of a lower frequency band than that of the first radiation pattern 200 .

As an example, the first radiation pattern 200 and the second radiation pattern 300 resonate with signals of 6 GHz and 8 GHz bands, respectively. Of course, when the size of the antenna module increases, the first radiation pattern 200 and the second radiation pattern 300 may resonate with different frequency signals in a lower frequency band.

Meanwhile, referring to FIGS. 4 and 5 , the first radiation pattern 200 and the second radiation pattern 300 may be formed in various shapes such as semicircles and ovals. The first radiation pattern 200 and the second radiation pattern 300 may have the same shape, but may be formed to have different areas.

Referring to FIG. 6 , the first radiation pattern 200 and the second radiation pattern 300 may be formed in different shapes. That is, the first radiation pattern 200 may be formed in a rectangular shape, and the second radiation pattern 300 may be formed in a polygonal shape other than a square, such as a semicircle or a circle.

As such, as the first radiation pattern 200 and the second radiation pattern 300 are formed in the shape of a wide circle or polygon, the directivity of the radiation pattern can be maximized.

The plurality of first through holes 400 are formed through the first radiation pattern 200 and the base substrate 100 . The plurality of first through holes 400 are electrically connected to the first radiation pattern 200 and the ground GND formed on the lower surface of the base substrate 100 .

The plurality of first through-holes 400 are formed on the first radiation pattern 200 and are arranged side by side along one side of the first radiation pattern 200 . The plurality of first through holes 400 are disposed at one side of the first radiation pattern 200 facing the second radiation pattern 300 .

For example, the first radiation pattern 200 is formed in a rectangular shape having a first side S1 , a second side S2 , a third side S3 and a fourth side S4 , and the first side ( When S1 is a side facing the second radiation pattern 300 , the plurality of first through holes 400 are disposed in parallel with the first side S1 .

The plurality of second through holes 500 are formed through the second radiation pattern 300 and the base substrate 100 . The plurality of second through holes 500 are electrically connected to the second radiation pattern 300 and the ground GND formed on the lower surface of the base substrate 100 .

The plurality of second through-holes 500 are formed on the second radiation pattern 300 and are arranged side by side along one side of the second radiation pattern 300 . The plurality of second through holes 500 are disposed on one side of the second radiation pattern 300 facing the first radiation pattern 200 .

For example, the second radiation pattern 300 is formed in a rectangular shape having a first side S1', a second side S2', a third side S3', and a fourth side S4', When the first side S1 ′ is the side facing the first radiation pattern 200 , the plurality of second through-holes 500 are disposed in parallel with the first side S1 ′.

On the other hand, as shown in FIG. 5 , when the portion facing the first radiation pattern 200 and the second radiation pattern 300 has a round (arc) shape, only a portion that does not satisfy the separation distance between the radiation patterns is through-hole (that is, A first through hole 400 and a second through hole 500 may be formed.

Since the distance between the first radiation pattern 200 and the second radiation pattern 300 is so narrow as to be spaced apart by about 1 mm, the interference between the two radiation patterns increases and the isolation characteristic deteriorates.

In the antenna module according to an embodiment of the present invention, the first through-holes 400 and the second through-holes 500 are closely arranged adjacent to the sides of the first radiation pattern 200 and the second radiation pattern 300 facing each other. ) is formed in the first radiation pattern 200 and the second radiation pattern 300 , respectively, so that the plurality of first through holes 400 and the plurality of second through holes 500 are formed in the first radiation pattern 200 . and forming a ground wall (GW) between the second radiation patterns 300 to maximize the isolation characteristics between the radiation patterns.

The feeding pattern 600 is a pattern for connecting the first radiation pattern 200 and the second radiation pattern 300 to a power supply (not shown), and the first radiation pattern 200 and the second radiation pattern 300 . is electrically connected to In the form of a PIFA (Planar Inverted F Antenna) resonating in two frequency bands as the feeding pattern 600 is electrically connected to the first radiation pattern 200 and the second radiation pattern 300 resonating in different frequency bands. A dual-band antenna can be configured.

The feeding pattern 600 includes a first feeding pattern 612 electrically connected to the first radiation pattern 200 , a second feeding pattern 614 electrically connected to the second radiation pattern 300 , and a first feeding pattern 612 . ) and a third feeding pattern 616 electrically connected to the second feeding pattern 614 .

In this case, referring to FIG. 7 , it is assumed that the antenna module is configured as a stacked antenna in which the first base material 120 , the second base material 140 , and the third base material 160 are stacked.

The first feeding pattern 612 is electrically connected to the first radiation pattern 200 through the first connection pattern 622 disposed on the upper surface of the second base substrate 140 . In this case, the first connection pattern 622 is electrically connected to the first radiation pattern 200 and the first feeding pattern 612 through a via hole (not shown) formed through the first base substrate 120 .

The second feeding pattern 614 is electrically connected to the second radiation pattern 300 through the second connection pattern 624 disposed on the upper surface of the second base substrate 140 . In this case, the second connection pattern 624 is electrically connected to the second radiation pattern 300 and the second feeding pattern 614 through a via hole (not shown) formed through the first base substrate 120 .

The third feeding pattern 616 is electrically connected to the first feeding pattern 612 and the second feeding pattern 614 through the third connection pattern 626 disposed on the upper surface of the second base substrate 140 . In this case, the third feeding pattern 616 is electrically connected to the first feeding pattern 612 and the second feeding pattern 614 through a via hole (not shown) formed through the first base substrate 120 .

Referring to FIGS. 8 and 9 , when the antenna module consists of only one base substrate 100 , the feeding pattern 600 is formed from the base 632 and the base 632 connected to the power supply (not shown). The first branching part 634 branched and electrically connected to the first radiation pattern 200 and the second branching part 636 branched from the base part 632 and electrically connected to the second radiation pattern 300 are formed. can be configured. In this case, the base part 632 , the first branch part 634 , and the second branch part 636 may be integrally formed.

Although the preferred embodiment according to the present invention has been described above, it can be modified in various forms, and those of ordinary skill in the art can make various modifications and modifications without departing from the scope of the claims of the present invention. It is understood that it can be implemented.

100: base material 200: first radiation pattern
300: second radiation pattern 400: first through hole
500: second through hole 600: feeding pattern

Claims (10)

a base substrate having a ground formed on its lower surface;
a first radiation pattern disposed on the upper surface of the base substrate;
a second radiation pattern spaced apart from the first radiation pattern on the upper surface of the base substrate;
a feeding pattern disposed on the upper surface of the base substrate and electrically connected to the first radiation pattern and the second radiation pattern;
a plurality of first through holes disposed in parallel with one side of the first radiation pattern facing the second radiation pattern; and
and a plurality of second through holes disposed in parallel with one side of the second radiation pattern facing the first radiation pattern,
The base substrate includes a first base substrate on which the first radiation pattern and the second radiation pattern are formed on an upper surface, and a second base substrate disposed on a lower surface of the first base substrate,
The feeding pattern is
a first feeding pattern electrically connected to the first radiation pattern;
a second feeding pattern electrically connected to the second radiation pattern;
a third feeding pattern electrically connected to the first feeding pattern and the second feeding pattern;
a first connection pattern disposed on the second base substrate to electrically connect the first radiation pattern and the first feeding pattern;
a second connection pattern disposed on the second base substrate to electrically connect the second radiation pattern and the second feeding pattern; and
An antenna module including a third connection pattern disposed on the second base substrate and electrically connecting the first feeding pattern and the second feeding pattern. According to claim 1,
An antenna module in which an area of the first radiation pattern is narrower than an area of the second radiation pattern. According to claim 1,
In the plurality of first through holes, the first radiation pattern is electrically connected to the ground. According to claim 1,
In the plurality of second through holes, the second radiation pattern is electrically connected to the ground. delete delete delete delete According to claim 1,
The base material is
The antenna module further comprising a third base substrate disposed on a lower surface of the second base substrate and having a ground formed on the lower surface. delete

Images